Coupling radiative transfer and soil-vegetation-atmosphere transfer models for combined optical-microwave remote sensing of vegetation

机译：耦合光-微波遥感植被耦合辐射传递与土壤-植被-大气传递模型

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Different wavelength domains can be used for analysing the biophysical processes of vegetation canopies, especially evapotranspiration, transpiration and photosynthesis. To study the synergy between spectral reflectances, thermal infrared, passive and active microwaves, two models have been coupled: one SVAT (Soil-Vegetation-Atmosphere Transfer) model and another for microwave radiative transfers (MRT) within the canopy. The first model was designed by Olioso (1992) in order to relate canopy processes to spectral reflectances and thermal infrared brightness temperature. The second was designed by Wigneron (1993) in order to simulate microwave emission and backscattering from a vegetation canopy.

机译：不同的波长域可用于分析植被冠层的生物物理过程，尤其是蒸散，蒸腾和光合作用。为了研究光谱反射率，热红外，无源和有源微波之间的协同作用，已经耦合了两种模型：一种是SVAT（土壤-植被-大气转移）模型，另一种是用于冠层内的微波辐射转移（MRT）模型。第一个模型是由Olioso（1992）设计的，目的是将冠层过程与光谱反射率和热红外亮度温度相关联。第二个是由Wigneron（1993）设计的，目的是模拟植物冠层的微波发射和反向散射。

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《Geoscience and Remote Sensing Symposium, 1995. IGARSS '95. 'Quantitative Remote Sensing for Science and Applications', International》|1995年|P.742-744|共3页
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Olioso; A.; Wigneron; J.P.;
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中图分类无线电电子学、电信技术;
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1. Uncertainties of Water Fluxes in Soil-Vegetation-Atmosphere Transfer Models:Inverting Surface Soil Moisture and Evapotranspiration Retrieved from Remote Sensing [J] . Joseph A. P. Pollacco, Binayak P. Mohanty Vadose zone journal VZJ . 2012,第3期

机译：土壤-植物-大气转移模型中水通量的不确定性：遥感反演的表层土壤水分和蒸散量
2. Calibrating a soil-vegetation-atmosphere transfer model with remote sensing estimates of surface temperature and soil surface moisture in a semi arid environment [J] . Ridler M.E., Sandholt I., Butts M., Journal of Hydrology . 2012,第Null期

机译：在半干旱环境中利用遥感估计的地表温度和土壤表面水分校准土壤-植被-大气转移模型
3. Soil-vegetation-atmosphere radiative transfer model in microwave region [J] . Yuanyuan Jia, Zhaoliang Li Chinese Geographical Science . 2008,第2期

机译：微波区土壤-植被-大气辐射传递模型
4. Coupling radiative transfer and soil-vegetation-atmosphere transfer models for combined optical-microwave remote sensing of vegetation [C] . Olioso A., Wigneron J.P., Institute of Electric and Electronic Engineer International Geoscience and Remote Sensing Symposium . 1995

机译：用于植被组合光微波遥感的耦合辐射转移和土壤 - 植被 - 大气转移模型
5. Validation of remotely-sensed soil moisture observations for bare soil at 1.4 GHz: A quantitative approach through radiative transfer models to characterize abrupt transitions caused by a ponding event in an agricultural field, modifications to the radiative transfer models, and a mobile ground-based system [D] . Erbas, Cihan 2009

机译：对1.4 GHz裸土的遥感土壤水分观测值的验证：通过辐射转移模型的定量方法，以表征由农田中的积水事件引起的突然转变，对辐射转移模型的修改以及基于地面的移动系统
6. Where to Combat Shrub Encroachment in Alpine Timberline Ecosystems: Combining Remotely-Sensed Vegetation Information with Species Habitat Modelling [O] . Veronika Braunisch, Patrick Patthey, Raphaël Arlettaz -1

机译：在高山林线生态系统中哪里应对灌木丛侵害：将遥感植被信息与物种栖息地模型相结合
7. Validation of remotely-sensed soil moisture observations for bare soil at 1.4 GHz:A quantitative approach through radiative transfer models to characterize abrupt transitions caused by a ponding event in an agricultural field,modifications to radiative transfer models,and a mobile groundbased system [O] . Erbas, Cihan 2009

机译：对1.4 GHz裸土的遥感土壤水分观测值的验证：通过辐射转移模型的定量方法，以表征由农田中的积水事件引起的突然转变，对辐射转移模型的修改以及基于地面的移动系统
8. Impact of Submerged Aquatic Vegetation on Radiative Transfer and Hyperspectral Remote Sensing in Optically Shallow Waters: Continued Analysis of CoBOP Data. [R] . Zimmerman, R. C. 2003

机译：淹水水生植被对光浅水中辐射传输和高光谱遥感的影响：CoBOp数据的持续分析。

Coupling radiative transfer and soil-vegetation-atmosphere transfer models for combined optical-microwave remote sensing of vegetation

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